# -*- test-case-name: twisted.test.test_stdio -*- """Standard input/out/err support. Future Plans:: support for stderr, perhaps Rewrite to use the reactor instead of an ad-hoc mechanism for connecting protocols to transport. Maintainer: James Y Knight """ from zope.interface import implementer from twisted.internet import process, error, interfaces from twisted.python import log, failure @implementer(interfaces.IAddress) class PipeAddress(object): pass @implementer(interfaces.ITransport, interfaces.IProducer, interfaces.IConsumer, interfaces.IHalfCloseableDescriptor) class StandardIO(object): _reader = None _writer = None disconnected = False disconnecting = False def __init__(self, proto, stdin=0, stdout=1, reactor=None): if reactor is None: from twisted.internet import reactor self.protocol = proto self._writer = process.ProcessWriter(reactor, self, 'write', stdout) self._reader = process.ProcessReader(reactor, self, 'read', stdin) self._reader.startReading() self.protocol.makeConnection(self) # ITransport # XXX Actually, see #3597. def loseWriteConnection(self): if self._writer is not None: self._writer.loseConnection() def write(self, data): if self._writer is not None: self._writer.write(data) def writeSequence(self, data): if self._writer is not None: self._writer.writeSequence(data) def loseConnection(self): self.disconnecting = True if self._writer is not None: self._writer.loseConnection() if self._reader is not None: # Don't loseConnection, because we don't want to SIGPIPE it. self._reader.stopReading() def getPeer(self): return PipeAddress() def getHost(self): return PipeAddress() # Callbacks from process.ProcessReader/ProcessWriter def childDataReceived(self, fd, data): self.protocol.dataReceived(data) def childConnectionLost(self, fd, reason): if self.disconnected: return if reason.value.__class__ == error.ConnectionDone: # Normal close if fd == 'read': self._readConnectionLost(reason) else: self._writeConnectionLost(reason) else: self.connectionLost(reason) def connectionLost(self, reason): self.disconnected = True # Make sure to cleanup the other half _reader = self._reader _writer = self._writer protocol = self.protocol self._reader = self._writer = None self.protocol = None if _writer is not None and not _writer.disconnected: _writer.connectionLost(reason) if _reader is not None and not _reader.disconnected: _reader.connectionLost(reason) try: protocol.connectionLost(reason) except: log.err() def _writeConnectionLost(self, reason): self._writer=None if self.disconnecting: self.connectionLost(reason) return p = interfaces.IHalfCloseableProtocol(self.protocol, None) if p: try: p.writeConnectionLost() except: log.err() self.connectionLost(failure.Failure()) def _readConnectionLost(self, reason): self._reader=None p = interfaces.IHalfCloseableProtocol(self.protocol, None) if p: try: p.readConnectionLost() except: log.err() self.connectionLost(failure.Failure()) else: self.connectionLost(reason) # IConsumer def registerProducer(self, producer, streaming): if self._writer is None: producer.stopProducing() else: self._writer.registerProducer(producer, streaming) def unregisterProducer(self): if self._writer is not None: self._writer.unregisterProducer() # IProducer def stopProducing(self): self.loseConnection() def pauseProducing(self): if self._reader is not None: self._reader.pauseProducing() def resumeProducing(self): if self._reader is not None: self._reader.resumeProducing() def stopReading(self): """Compatibility only, don't use. Call pauseProducing.""" self.pauseProducing() def startReading(self): """Compatibility only, don't use. Call resumeProducing.""" self.resumeProducing()